JP2017054617A - Luminaire - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a luminaire which achieves high flexibility of attachment.SOLUTION: A luminaire 1 includes: a luminaire body part 10 which may be attached to a building material 2; a light source part 20 and a power source part 30 housed in the luminaire body part 10; and screw hole 123 and a screw hole 505 into which a mounting screw 3 for mounting the luminaire body part 10 to the building material 2 may be inserted. A penetration direction of the screw hole 123 is different from a penetration direction of the screw hole 505.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lighting fixture that can be attached to a construction material or the like.

  Conventionally, a lighting fixture is used by being attached to a building construction material such as a ceiling or a wall. For example, a screw is used to attach the lighting fixture (see, for example, Patent Document 1).

JP 2014-137986 A

  By the way, the said conventional lighting fixture may be attached and used for narrow places, such as under furniture. In this case, it may be difficult for a driver or a person to enter a narrow place, and it may be difficult or impossible to turn a screw. Thus, since the mounting direction or mounting location of the lighting fixture is limited, the conventional lighting fixture has a problem that the degree of freedom in mounting is low.

  Then, an object of this invention is to provide the lighting fixture with a high freedom degree of attachment.

  In order to achieve the above object, a lighting fixture according to one aspect of the present invention supplies a power source to a light source unit and a light source unit housed in the device main body unit, which can be attached to a construction material, and the light source unit. And a first screw hole and a second screw hole into which a mounting screw for attaching the instrument main body to the construction material can be inserted, and a through direction of the first screw hole is determined by the second screw. It differs from the penetration direction of the hole.

  ADVANTAGE OF THE INVENTION According to this invention, the lighting fixture with a high freedom degree of attachment can be provided.

It is a general-view perspective view which shows a mode that the lighting fixture which concerns on embodiment was attached to the construction material. It is a disassembled perspective view of the lighting fixture which concerns on embodiment. It is a general-view perspective view which shows the edge part of the main body which concerns on embodiment. It is a general-view perspective view which shows the edge part of the attachment plate supported by the main body which concerns on embodiment. It is a general-view perspective view which shows the edge part by the side of the 1st edge part cover of the instrument main-body part which concerns on embodiment. It is a general-view perspective view which shows the edge part by the side of the 2nd edge part cover of the instrument main-body part which concerns on embodiment. It is a general-view perspective view of the retrofitting member which concerns on embodiment. It is a general-view perspective view which shows a mode that a mounting plate is slid and inserted in the main body which concerns on embodiment. It is a general | schematic perspective view which shows the mode in the middle of inserting the attachment plate in the main body which concerns on embodiment. It is a general | schematic perspective view of the attachment part when the lighting fixture which concerns on embodiment is attached to the construction material via the retrofitting member. It is a general | schematic perspective view of the attachment part at the time of the lighting fixture which concerns on embodiment being attached to the construction material without interposing a retrofit member. It is a schematic diagram explaining the propriety of the attachment at the time of attaching the lighting fixture which concerns on embodiment to a narrow part. It is a top view which shows a mode that the lighting fixture which concerns on embodiment is connected using a retrofitting member. It is a top view which shows a mode that the lighting fixture which concerns on embodiment is connected, without using a retrofitting member. It is a top view which shows a mode that the lighting fixture which concerns on embodiment was connected without using a retrofitting member. It is a general-view perspective view of the edge part of the lighting fixture which concerns on the modification of embodiment.

  Below, the lighting fixture which concerns on embodiment of this invention is demonstrated in detail using drawing. Note that each of the embodiments described below shows a preferred specific example of the present invention. Therefore, numerical values, shapes, materials, components, arrangement and connection forms of components, steps, order of steps, and the like shown in the following embodiments are merely examples, and are not intended to limit the present invention. Therefore, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims showing the highest concept of the present invention are described as optional constituent elements.

  Each figure is a mimetic diagram and is not necessarily illustrated strictly. Moreover, in each figure, the same code | symbol is attached | subjected about the same structural member. In the following embodiments, expressions such as substantially parallel or substantially orthogonal are used. For example, substantially parallel not only means completely parallel, but also means substantially parallel, that is, including an error of, for example, several percent. The same applies to expressions using other “abbreviations”.

(Embodiment)
[lighting equipment]
First, the outline | summary of the lighting fixture which concerns on this Embodiment is demonstrated using FIG. FIG. 1 is a schematic perspective view showing a state in which a lighting fixture 1 according to the present embodiment is attached to a construction material 2.

  As shown in FIG. 1, the luminaire 1 is attached to the building material 2 using attachment screws 3. The construction material 2 is a structural material such as a ceiling or a wall, and is a building material such as a panel or a board or a part of furniture. In this Embodiment, the lighting fixture 1 is attached to narrow places, such as the clearance gap between furniture and a ceiling, a floor, or a wall. The attachment screw 3 is, for example, a wood screw, but is not particularly limited.

  The lighting fixture 1 is long. In the present embodiment, the longitudinal direction of the luminaire 1 is the y-axis direction, and two directions orthogonal to the longitudinal direction are the x-axis direction and the z-axis direction, respectively. The luminaire 1 emits light to the negative side in the z-axis direction. In the following, for simplicity of explanation, the positive side in the z-axis direction is described as “upper”, “upper side” or “upper”, and the negative side in the z-axis direction is “lower”, “lower” or “lower” May be written. FIG. 1 is a perspective view of the luminaire 1 when viewed from obliquely below in the case where the luminaire 1 is mounted so as to illuminate the lower portion.

  FIG. 2 is an exploded perspective view of the lighting fixture 1 according to the present embodiment. As shown in FIG. 2, the lighting fixture 1 includes a fixture main body portion 10, a light source portion 20, a power source portion 30, and a terminal portion 40. In the present embodiment, the lighting fixture 1 further includes a retrofit member 50. The luminaire 1 further includes a plurality of screws 61 to 64.

  The luminaire 1 according to the present embodiment includes at least two screw holes (a first screw hole and a second screw hole) through which the mounting screw 3 can be inserted. The first screw hole and the second screw hole have different penetration directions. The first screw hole is, for example, the screw hole 123 shown in FIG. 2 and penetrates in the z-axis direction. The second screw holes are, for example, screw holes 505 and 506 shown in FIG. 2 and penetrate in the x-axis direction.

  Below, each component with which the lighting fixture 1 is provided is demonstrated in detail.

[Tool body]
The fixture main body 10 is a main body of the lighting fixture 1 and can be attached to the construction material 2. Specifically, the instrument main body 10 is a housing that houses the light source unit 20 and the power supply unit 30 therein. The instrument main body 10 is long in the y-axis direction.

  As shown in FIG. 2, the instrument main body 10 includes a main body 11, a mounting plate 12, a translucent cover 13, and end covers 14 and 15.

[Main unit]
The main body 11 is a housing that holds the light source unit 20 and the power supply unit 30. Specifically, the main body 11 is a casing having a substantially U-shaped cross section parallel to the yz plane and elongated in the y-axis direction. Specifically, the main body 11 has a rectangular tube shape in which both ends in the longitudinal direction are opened, and one of the side surfaces (specifically, the upper surface) of the rectangular tube is opened.

  FIG. 3 is a schematic perspective view showing an end portion of the main body 11 according to the present embodiment. As shown in FIGS. 2 and 3, the main body 11 includes a pair of standing plates 111, a bottom plate 112, an opening 113, and a pair of grooves 114. As shown in FIG. 3, the main body 11 further includes a pair of grooves 115, screw holes 116, and protrusions 117.

  The pair of standing plates 111 are erected on the bottom plate 112 so as to be substantially parallel to each other. The bottom plate 112 connects the lower ends of the pair of standing plates 111. The bottom plate 112 is substantially orthogonal to the pair of standing plates 111. Thereby, the cross-sectional shape of the main body 11 becomes a substantially U-shape. The bottom plate 112 has a placement surface (second surface) 112a and an inner bottom surface (first surface) 112b.

  The opening 113 is provided on the opposite side of the light emission direction from the light source unit 20 (positive side in the z-axis direction). That is, the opening 113 is between the tip portions in the standing direction (the positive side in the z-axis direction) of the pair of standing plates 111. Specifically, the opening 113 is between one upper end of the pair of standing plates 111 and the other upper end. That is, the opening 113 corresponds to the opened upper surface of the rectangular tube-shaped main body 11.

  The pair of grooves 114 are grooves provided along the edge of the opening 113. Specifically, the pair of grooves 114 are provided at the distal ends of the pair of standing plates 111. The pair of grooves 114 are substantially U-shaped grooves extending along the longitudinal direction (y-axis direction) of the main body 11.

  At least one of the ends in the longitudinal direction of the pair of grooves 114 is open, and is closed when the end cover 14 is attached. In the present embodiment, both ends in the longitudinal direction of the pair of grooves 114 are open. The pair of grooves 114 are continuously provided from one end of the main body 11 to the other end in the longitudinal direction. The pair of grooves 114 are provided at positions facing each other, and the ends of the mounting plate 12 in the short direction (x-axis direction) are slid into each of the grooves.

  As shown in FIG. 3, the groove 114 is formed by an upper ridge 114a and a lower ridge 114b. The upper ridge 114 a and the lower ridge 114 b protrude from the upper end of the upright plate 111 in a direction toward the upper end of the other upright plate 111. The distance between the upper ridge 114 a and the lower ridge 114 b, that is, the width of the groove 114 is substantially the same as the thickness of the mounting plate 12.

  As shown in FIG. 3, the pair of grooves 115 are provided on the placement surface 112 a side of the bottom plate 112. The pair of grooves 115 is a groove extending along the longitudinal direction (y-axis direction) of the main body 11, and the opening of the groove is narrower than the bottom of the groove. The pair of grooves 115 are provided continuously from one end of the main body 11 to the other end in the longitudinal direction. The ends of the translucent cover 13 in the transversal direction (x-axis direction) are slid into each of the pair of grooves 115.

  The screw hole 116 is a hole into which a screw 61 for fixing the end cover 14 or the end cover 15 is inserted. As shown in FIG. 3, it is provided on the end surface of the bottom plate 112. In the present embodiment, two screw holes 116 are respectively provided at both ends of the main body.

  The ridge 117 is provided in the vicinity of only one of the pair of grooves 114. The ridge 117 has substantially the same shape as the upper ridge 114a or the lower ridge 114b. The ridge 117 also functions as a mark indicating the direction when the end cover 14 and the end cover 15 are attached to the main body 11. Specifically, the protrusion 117 contacts one of the end cover 14 and the end cover 15 so that one of the end cover 14 and the end cover 15 is not attached. The position and shape of the ridge 117 are not particularly limited, and the ridge 117 may not be provided.

  In the present embodiment, the main body 11 is formed from a metal material or a resin material. For example, the main body 11 is integrally formed by aluminum extrusion or the like.

[Mounting plate]
The mounting plate 12 is a plate that covers the opening 113 of the main body 11. The mounting plate 12 is slid into the groove 114 so as to close the opening 113. The mounting plate 12 is a substantially rectangular plate that is long in the y-axis direction.

  As shown in FIG. 2, the mounting plate 12 includes a plate main body 121, a flange portion 122, a screw hole 123, an insertion hole 124, and a step portion 125. In the present embodiment, the mounting plate 12 includes two each of the flange portion 122, the screw hole 123, and the insertion hole 124.

  Specifically, as shown in FIG. 2, the two flanges 122 are provided one at each end in the longitudinal direction of the mounting plate 12. Specifically, the two flange portions 122 are provided at point-symmetric positions with respect to the center of the plate body 121. A screw hole 123 is provided in each of the two flange portions 122. That is, the two screw holes 123 are also provided at point-symmetric positions with respect to the center of the plate body 121.

  FIG. 4 is a schematic perspective view showing an end portion of the mounting plate 12 supported by the main body 11 according to the present embodiment. In FIG. 4, only the main body 11 and the mounting plate 12 are shown for easy understanding of the positional relationship between the main body 11 and the mounting plate 12.

  As shown in FIG. 4, the flange 122 is provided at one end of the instrument main body 10 in the longitudinal direction. The flange 122 protrudes outward from the main body 11. Specifically, the flange 122 projects from the main body 11 along the slide direction (y-axis direction).

  The flange 122 has a step in the thickness direction with respect to the plate body 121. Specifically, the flange 122 is located above the plate body 121. The flange portion 122 is located at substantially the same position as the upper end surfaces of the pair of standing plates 111 of the main body 11 (that is, the upper surface of the upper protrusion 114a) in the z-axis direction. The flange portion 122 has a width slightly shorter than half of the width (length in the x-axis direction) of the plate body 121.

  The screw hole 123 is an example of a first screw hole into which the attachment screw 3 for attaching the instrument main body 10 to the construction material 2 can be inserted. That is, the screw hole 123 is an example of a first screw hole provided in the mounting plate 12. As shown in FIGS. 2 and 4, the screw hole 123 is provided in the flange 122. That is, the screw hole 123 is provided at the end of the instrument body 10 in the longitudinal direction. Specifically, the screw hole 123 is exposed to the outside of the lighting fixture 1. An example of attachment to the building material 2 using the screw holes 123 will be described later.

  The insertion hole 124 is a rectangular through hole that penetrates the plate body 121 in the thickness direction. The insertion hole 124 is provided in the vicinity of the position where the terminal portion 40 is disposed. The insertion hole 124 is a through hole for inserting a lead wire (not shown) for supplying power from the external power source to the power supply unit 30. A frame member 43 is provided in the insertion hole 124.

  The step portion 125 is provided at one end of the plate body 121. The step portion 125 has a step in the thickness direction with respect to the plate body 121. Specifically, the step portion 125 is located below the plate body 121.

  When the plurality of lighting fixtures 1 are connected without using the retrofitting member 50, the stepped portion 125 is configured to cover the head of a screw (for example, the mounting screw 3) inserted into the screw hole 123 of the adjacent lighting fixture 1. It functions as an escape part to avoid. Note that the step portion 125 may also be provided at the other end of the plate body 121. Alternatively, the mounting plate 12 may not be provided with the step portion 125.

  As shown in FIG. 4, the mounting plate 12 is sandwiched between the upper ridge 114a and the lower ridge 114b of the groove 114, and movement in the vertical direction (z-axis direction) is restricted. Further, the mounting plate 12 is sandwiched between the pair of standing plates 111 (between the bottoms of the pair of grooves 114), and movement in the short direction (x-axis direction) is restricted. The mounting plate 12 is sandwiched between the end cover 14 and the end cover 15 and is restricted from moving in the longitudinal direction (y-axis direction).

  The mounting plate 12 is formed from a metal material. For example, the mounting plate 12 is integrally formed by aluminum pressing or the like.

  Since the mounting plate 12 is not fixed to the main body 11, for example, even if the main body 11 is thermally expanded due to heat generated by the light source unit 20, the stress is relieved. For this reason, deformation or breakage of the main body 11 or the mounting plate 12 can be suppressed.

[Translucent cover]
The translucent cover 13 is provided so as to cover the light source unit 20. The translucent cover 13 is inserted into the groove 115 and supported by the main body 11. The translucent cover 13 has, for example, a downwardly convex smooth curved surface.

  The translucent cover 13 is sandwiched by the grooves 115 and is restricted from moving in the vertical direction (z-axis direction) and the short direction (x-axis direction). The translucent cover 13 is sandwiched between the end cover 14 and the end cover 15 to restrict movement in the longitudinal direction (y-axis direction).

  The translucent cover 13 is formed from, for example, a resin material such as acrylic (PMMA) or polycarbonate (PC), or a glass material. The translucent cover 13 may have a diffusion function for diffusing light. For example, the translucent cover 13 may be formed using a translucent resin material in which a diffusing material is dispersed, or irregularities may be formed on the surface by embossing or the like.

  Since the translucent cover 13 is not fixed to the main body 11, for example, even if the main body 11 is thermally expanded due to heat generated by the light source unit 20, the stress is relieved. For this reason, deformation or breakage of the translucent cover 13 can be suppressed.

[First end cover]
The end cover 14 is an example of a first end cover provided on one end of the main body 11 in the longitudinal direction (y-axis direction). The end cover 14 restricts the movement of the mounting plate 12 in the sliding direction. FIG. 5 is a schematic perspective view showing an end portion on the end cover 14 (first end cover) side of the instrument main body 10 according to the present embodiment. FIG. 5 further shows a screw 61 for fixing the end cover 14 to the main body 11.

  The end cover 14 covers the ends in the longitudinal direction (y-axis direction) of the main body 11, the mounting plate 12, and the translucent cover 13. The end cover 14 has two screw holes 141. The two screw holes 141 are provided at positions overlapping with the screw holes 116 of the main body 11 when viewed in the y-axis direction. The end cover 14 is fixed to the main body 11 by inserting a screw 61 into each of the two screw holes 141.

  As shown in FIG. 5, the end cover 14 includes a substantially rectangular lid 142 at a substantially central portion. The lid portion 142 is connected to the main body of the end cover 14 one by one on each of the four sides, and can be easily cut off. For example, when connecting the some lighting fixture 1 to a longitudinal direction, the cover part 142 is cut off. A lead wire (not shown) can be connected from one lighting fixture 1 to the other lighting fixture 1 using a substantially rectangular hole formed by cutting off the lid 142. As a result, the lead wire can be connected without using the insertion hole 124.

  A first recess 143 and a second recess 144 are provided at the upper end of the end cover 14.

  The first recess 143 is a recess for inserting the flange 122 of the mounting plate 12. The depth (length in the z-axis direction) of the first recess 143 is, for example, not less than the step between the plate body 121 and the flange 122 of the mounting plate 12. That is, the upper surface of the bottom of the first recess 143 is located at a position lower than the lower surface of the plate body 121 in the z-axis direction.

  The 2nd recessed part 144 is a recessed part for inserting the collar part 122 of the adjacent lighting fixture 1 when connecting the several lighting fixture 1 to a longitudinal direction. In addition, the second recess 144 restricts movement of the mounting plate 12 in the longitudinal direction (y-axis direction) by contacting the end surface of the plate body 121 of the mounting plate 12 at the bottom. Specifically, the depth (length in the z-axis direction) of the second recess 144 is, for example, a depth that is the same position as the upper surface of the plate body 121 of the mounting plate 12 in the z-axis direction. That is, the upper surface of the bottom of the second recess 144 and the upper surface of the plate body 121 are substantially flush. The top surface of the bottom of the second recess 144 is located above the top surface of the bottom of the first recess 143.

[Second end cover]
The end cover 15 is an example of a second end cover provided on the other end of the main body 11 in the longitudinal direction (y-axis direction). The end cover 15 restricts the movement of the mounting plate 12 in the sliding direction. FIG. 6 is a schematic perspective view showing an end portion on the end cover 15 (second end cover) side of the instrument main body 10 according to the present embodiment. In FIG. 6, a screw 61 for fixing the end cover 15 to the main body 11 is further illustrated.

  The end cover 15 covers the ends in the longitudinal direction (y-axis direction) of the main body 11, the mounting plate 12 and the translucent cover 13. The end cover 15 has two screw holes 151. The two screw holes 151 are provided at positions overlapping with the screw holes 116 of the main body 11 when viewed in the y-axis direction. The end cover 15 is fixed to the main body 11 by inserting a screw 61 into each of the two screw holes 151.

  As shown in FIG. 6, the end cover 15 includes a substantially rectangular lid 152 at a substantially central portion. The lid 152 is the same as the lid 142.

  A first recess 153 and a second recess 154 are provided at the upper end of the end cover 15.

  The first recess 153 is a recess for inserting the flange 122 of the mounting plate 12. The depth (length in the z-axis direction) of the first recess 153 is, for example, not less than the level difference between the plate body 121 and the flange portion 122 of the mounting plate 12. That is, the upper surface of the bottom of the first recess 153 is located at a position lower than the lower surface of the plate body 121 in the z-axis direction.

  The 2nd recessed part 154 is a recessed part for inserting the collar part 122 of the adjacent lighting fixture 1 when connecting the several lighting fixture 1 to a longitudinal direction. The second recess 154 has a depth that allows the screw head of the screw 64 to be inserted in preparation for the case where the screw 64 is provided in the flange 122 of the adjacent lighting device 1. Specifically, the depth (the length in the z-axis direction) of the second recess 154 is, for example, a depth that is the same position as the upper surface of the stepped portion 125 of the mounting plate 12 in the z-axis direction. That is, the top surface of the bottom of the second recess 154 and the top surface of the stepped portion 125 are substantially flush. The top surface of the bottom of the second recess 154 is located below the top surface of the bottom of the first recess 153. The second recess 154 regulates the movement of the mounting plate 12 in the longitudinal direction (y-axis direction) by contacting the end surface of the stepped portion 125 of the mounting plate 12 at the bottom.

[Light source]
The light source unit 20 is a light source unit that is housed in the instrument body unit 10 and emits illumination light. Specifically, the light source unit 20 is mounted on the mounting surface 112 a of the main body 11 and covered with the translucent cover 13. The light source unit 20 is fixed to the placement surface 112a.

  In addition, the lighting fixture 1 which concerns on this Embodiment is provided with the two light source parts 20 as shown in FIG. The lighting fixture 1 may include only one light source unit 20 or may include three or more light source units 20.

  As shown in FIG. 2, the light source unit 20 includes a substrate 21 and a light emitting element 22. The light source unit 20 is a light source module including a plurality of light emitting elements 22.

  The board 21 is a substantially rectangular circuit board that is long in the y-axis direction. The board | substrate 21 is a mounting board | substrate for mounting the light emitting element 22, for example. The substrate 21 is, for example, a resin substrate, a metal base substrate, a ceramic substrate, or a glass substrate.

  The substrate 21 is placed on the placement surface 112 a of the main body 11. The substrate 21 is fixed to the main body 11 by one or more screws 62. In the present embodiment, as illustrated in FIG. 2, the luminaire 1 includes six screws 62. One substrate 21 is fixed to the main body 11 by inserting three screws 62 into the screw holes 112 c through the substrate 21.

  The substrate 21 is provided with metal wiring (not shown), and the plurality of light emitting elements 22 are electrically connected. Further, the board 21 is provided with a connector (not shown) for receiving power from the power supply unit 30. The power from the power supply unit 30 is supplied to the plurality of light emitting elements 22 via the connector and the metal wiring, and the plurality of light emitting elements 22 emit light.

  The light emitting element 22 is, for example, a so-called SMD (Surface Mounted Device) type light emitting element in which an LED (Light Emitting Diode) chip and a phosphor-containing resin are packaged. The light emitting element 22 includes a package, an LED chip disposed in the package, and a sealing member that seals the LED chip. The light emitting element 22 is, for example, a white LED element that emits white light.

  The light source unit 20 may be a COB (Chip On Board) type light source module in which an LED chip is directly mounted on the substrate 21 as the light emitting element 22.

[Power supply part]
The power supply unit 30 is a power supply unit that is housed in the instrument body unit 10 and supplies power to the light source unit 20. Specifically, the power supply unit 30 is disposed inside the main body 11. More specifically, the power supply unit 30 is disposed between the pair of standing plates 111 and is fixed to the inner bottom surface 112 b of the bottom plate 112. The inner bottom surface 112b is a surface opposite to the placement surface 112a of the bottom plate 112.

  As shown in FIG. 2, the power supply unit 30 includes a power supply circuit 31, a first cover 32, and a second cover 33. The first cover 32 and the second cover 33 are combined to form a substantially rectangular parallelepiped circuit case having one side surface opened. The power supply circuit 31 is accommodated in the circuit case.

  The power supply circuit 31 is a circuit (lighting circuit) for supplying power to the light source unit 20 to light the light emitting element 22. The power supply circuit 31 receives AC power from an external power supply, converts it into DC power, and supplies it to the light source unit 20. Specifically, the power supply circuit 31 includes a substrate and an electronic component mounted on the substrate. The substrate is, for example, a resin substrate. Electronic components include circuit components such as transistors, capacitors, coils, resistance elements, and rectifier elements.

  The power supply circuit 31 is wrapped by an insulating sheet (not shown) and insulated from the first cover 32 and the second cover 33. The power supply circuit 31 is connected to the terminal portion 40 via a lead wire (not shown).

  The first cover 32 is a metal plate having an L-shaped cross section. As shown in FIG. 2, the first cover 32 has flange portions 321 having through holes 322 at both ends in the longitudinal direction.

  The second cover 33 is a metal plate having an L-shaped cross section. As shown in FIG. 2, the second cover 33 has flange portions 331 having through holes 332 at both ends in the longitudinal direction.

  When the first cover 32 and the second cover 33 are combined, the through hole 322 and the through hole 332 overlap in the z-axis direction, and the flange portion 321 and the flange portion 331 come into contact with each other. The screw 63 is inserted in this order into the through hole 322, the through hole 332, and the screw hole 112 d provided in the inner bottom surface 112 b of the bottom plate 112 of the main body 11, so that the power supply unit 30 is fixed.

  The first cover 32 and the second cover 33 are formed, for example, by pressing an aluminum metal plate. The first cover 32 and the second cover 33 may be integrally formed as one circuit case.

[Terminal part]
As shown in FIG. 2, the terminal portion 40 includes a terminal block 41 and a protection member 42.

  The terminal block 41 receives power from an external power source and supplies the received power to the power supply unit 30. Specifically, a lead wire (not shown) connected to an external power supply (commercial power supply) and a lead wire (not shown) connected to the power supply unit 30 are connected to the terminal block 41. .

  The terminal block 41 is fixed to the inner bottom surface 112b of the bottom plate 112 of the main body 11, for example. The terminal block 41 is, for example, a quick connection terminal.

  The protection member 42 is attached to the upper surface of the terminal block 41 to protect the terminal block 41. For example, dust or the like is prevented from adhering to the terminal block 41 through the insertion hole 124 of the mounting plate 12.

  In addition, in this Embodiment, although the lighting fixture 1 showed about the example provided with the one terminal part 40, it is not restricted to this. For example, the lighting fixture 1 may include two terminal portions 40. In this case, for example, as shown in FIG. 2, one of the two terminal portions 40 is disposed in the vicinity of the end cover 14, and the other of the two terminal portions 40 is disposed in the vicinity of the end cover 15. .

  Thereby, since electric power can be received through any of the two terminal parts 40, the freedom degree of wiring and attachment can be raised. Further, as will be described later, even when a plurality of lighting fixtures 1 are connected and used, the plurality of lighting fixtures 1 can be connected and directly wired.

[Retrofit member]
The retrofit member 50 is a retrofit member that is detachably attached to the instrument main body 10. The retrofitting member 50 according to the present embodiment is used for attaching the lighting fixture 1 to the construction material 2.

  FIG. 7 is a schematic perspective view of the retrofitting member 50 according to the present embodiment. As shown in FIG. 7, the retrofit member 50 includes a first plate portion 501 and a second plate portion 502. The retrofit member 50 has screw holes 503 to 506.

  The first plate portion 501 is a substantially rectangular plate. The size and shape of the first plate portion 501 are not particularly limited. Screw holes 503 and 504 are provided in the first plate portion 501. The screw holes 503 and 504 are an example of third screw holes into which the mounting screws 3 can be inserted. The diameters of the screw holes 503 and 504 are substantially the same as the diameter of the screw hole 123.

  The second plate portion 502 is a substantially rectangular plate. The size and shape of the second plate portion 502 are not particularly limited. Screw holes 505 and 506 are provided in the second plate portion 502. The screw holes 505 and 506 are an example of second screw holes into which the mounting screws 3 can be inserted. The diameters (widths of the long holes) of the screw holes 505 and 506 are substantially the same as the diameter of the screw hole 503.

  The first plate portion 501 and the second plate portion 502 are substantially orthogonal. That is, the retrofit member 50 has a substantially L-shaped cross section. Thereby, the penetration direction (z-axis direction) of the screw holes 503 and 504 and the penetration direction (x-axis direction) of the screw holes 505 and 506 are orthogonal to each other.

  In addition, in this Embodiment, although the retrofitting member 50 has shown about the example which has two 2nd screw holes and two 3rd screw holes, it is not restricted to this. The retrofit member 50 may have only one second screw hole (for example, only the screw hole 505) and only one third screw hole (for example, only the screw hole 503). You may have a 2nd screw hole and three or more 3rd screw holes.

  In the present embodiment, the retrofitting member 50 is formed from a metal material or a resin material. For example, the retrofit member 50 is formed by bending aluminum or the like.

[Insert slide]
Here, attachment of the attachment plate 12 according to the present embodiment to the main body 11 will be described with reference to the drawings.

  FIG. 8 is a schematic perspective view showing a state where the mounting plate 12 is slid and inserted into the main body 11 of the lighting apparatus 1 according to the present embodiment. FIG. 9 is a schematic perspective view showing a state in the middle of inserting the mounting plate 12 into the main body 11 of the lighting apparatus 1 according to the present embodiment.

  As shown in FIG. 8, the end portion of the mounting plate 12 is slid into the pair of grooves 114 from one end portion of the main body 11. As shown in FIG. 9, the mounting plate 12 is slid along the longitudinal direction (y-axis direction) of the main body 11 along the pair of grooves 114. By sliding the mounting plate 12 to the other end of the main body 11, the opening 113 of the main body 11 is covered with the mounting plate 12. Finally, by attaching the end cover 14 and the end cover 15 to both ends of the main body 11, the power supply unit 30 and the like can be accommodated inside the instrument main body 10.

  In FIG. 8, the end of the mounting plate 12 on the side where the stepped portion 125 is provided is inserted into the pair of grooves 114 and the mounting plate 12 is slid to the positive side in the y-axis direction. Absent. The end of the mounting plate 12 on the side where the step 125 is not provided may be inserted into the pair of grooves 114, and the mounting plate 12 may be slid to the negative side in the y-axis direction.

  Thus, the instrument main body 10 can be reduced in size by sliding the mounting plate 12 into the main body 11. For example, as a method of attaching the attachment plate 12 to the main body 11, screwing or the like can be considered. Further, the mounting plate 12 is required to have a strength that can withstand screwing, and a certain thickness or more is required.

  In contrast, in the present embodiment, the mounting plate 12 is slid and placed on the lower ridge 114b, so that the thickness can be reduced. Thereby, the instrument main-body part 10 of the lighting fixture 1 can be reduced in size and weight.

  Moreover, in this Embodiment, since the light source part 20 and the power supply part 30 are not attached to the attachment board 12, the attachment board 12 can be slid easily. Further, for example, by keeping a sufficient space between the power supply unit 30 and the mounting plate 12, it is possible to prevent the mounting plate 12 or the power supply unit 30 from being damaged due to an unexpected collision or the like when the mounting plate 12 is slid. can do.

[Installation to construction materials]
In the present embodiment, the luminaire 1 includes two screw holes having penetration directions in two different directions. Accordingly, the luminaire 1 can be mounted in two different directions.

  Below, the case where the lighting fixture 1 is first attached to a 1st direction is demonstrated using FIG. The first direction is, for example, a side surface direction of the lighting fixture 1 (a direction orthogonal to the optical axis).

  FIG. 10 is a schematic perspective view of an attachment portion when the lighting apparatus 1 according to the present embodiment is attached to the building material 2 via the retrofitting member 50. As shown in FIG. 10, the flange 122 and the retrofitting member 50 of the instrument main body 10 are fixed by screws 64. Further, the retrofitting member 50 is fixed to the construction material 2 by the mounting screw 3. Thereby, the lighting fixture 1 can be attached to the construction material 2 located in the side surface direction (1st direction (negative side of x-axis direction)) of the lighting fixture 1. FIG.

  Next, the case where the lighting fixture 1 is attached in a 2nd direction is demonstrated using FIG. The second direction is, for example, the upward direction of the lighting fixture 1 (the side opposite to the light emission direction).

  FIG. 11 is a schematic perspective view of an attachment portion when the lighting apparatus 1 according to the present embodiment is attached to the construction material 2 without using the retrofitting member 50. As shown in FIG. 11, the flange 122 of the instrument main body 10 is fixed to the construction material 2 by the mounting screw 3. Thereby, the lighting fixture 1 can be attached to the construction material 2 located in the upper direction (second direction (positive side in the z-axis direction)) of the lighting fixture 1.

  Thus, as can be seen by comparing FIG. 10 and FIG. 11, the lighting fixture 1 according to the present embodiment can change the mounting direction of the lighting fixture 1 by using the retrofitting member 50. it can. Since the mounting direction can be changed, the luminaire 1 can be mounted in a narrow portion such as between the furniture and the ceiling, wall or floor.

  Moreover, since the retrofitting member 50 is detachable with respect to the fixture main-body part 10, when it is not necessary to change an attachment direction, the lighting fixture 1 can be reduced in weight by removing the retrofit member 50. FIG. . Moreover, the appearance of the lighting fixture 1 can be improved.

  FIG. 12 is a schematic diagram for explaining whether or not the lighting fixture 1 according to the present embodiment can be attached when attached to a narrow portion.

  In FIG. 12, the case where the lighting fixture 1 is attached to the narrow space 94 between the furniture 91, the wall 92, and the floor 93 so that the lower part is illuminated is shown. That is, here, the luminaire 1 is attached so that the luminaire 1 mainly illuminates the floor 93.

  At this time, when the retrofitting member 50 is not used, as shown in FIG. 12A, the penetration direction of the screw hole 123 provided in the flange portion 122 of the lighting device 1 is the vertical direction. That is, the insertion direction of the mounting screw 3 is the vertical direction. At this time, since the driver 90 does not enter the narrow space 94 in the vertical direction, the mounting screw 3 cannot be tightened.

  On the other hand, as shown in FIG. 12B, by attaching the retrofitting member 50 to the flange portion 122 in advance, the insertion direction of the attachment screw 3 of the luminaire 1 becomes the horizontal direction. Since the driver 90 enters the horizontal space 94 in the narrow space 94, the mounting screw 3 can be tightened, and the lighting fixture 1 can be appropriately mounted.

  As mentioned above, as for the lighting fixture 1 which concerns on this Embodiment, the attachment direction is not limited to one direction, and it can raise the freedom degree of attachment.

  In addition, when the driver 90 can be put vertically in the space 94, the lighting fixture 1 can be attached to the lower surface of the furniture 91 (see (a) of FIG. 12). At this time, in this embodiment, since the mounting direction of the lighting fixture 1 can be changed, for example, the lighting fixture 1 is attached to the lower surface of the furniture 91 via the retrofitting member 50 so as to emit light toward the wall 92. It can also be attached to. Thereby, for example, the reflection of the LED grains on the floor surface can be suppressed.

[Connection of multiple lighting fixtures]
Here, the connection of the plurality of lighting fixtures 1 will be described.

  First, the case where the several lighting fixture 1 is connected using the retrofitting member 50 is demonstrated using FIG. FIG. 13 is a plan view showing a state in which the lighting fixtures 1A and 1B according to the embodiment are connected using the retrofitting member 50. FIG. Each of the lighting fixture 1A and the lighting fixture 1B is the same as the lighting fixture 1 described above.

  As shown in FIG. 13, the lighting fixture 1 </ b> A and the lighting fixture 1 </ b> B are connected via the retrofitting member 50 so that the end cover 14 </ b> A of the lighting fixture 1 </ b> A and the end cover 15 </ b> B of the lighting fixture 1 </ b> B are opposed to each other. . Specifically, the screw 64A is inserted through the screw hole 504 of the retrofitting member 50 and the screw hole 123A of the flange 122A on the end cover 14A side of the lighting fixture 1A. Similarly, the screw 64B is inserted through the screw hole 503 of the retrofitting member 50 and the screw hole 123B of the flange 122B on the end cover 15B side of the lighting fixture 1B.

  Thereby, one retrofit member 50 can be attached to two lighting fixtures 1A and 1B. By attaching the attachment screw 3 to the screw hole 505 or 506 of the retrofit member 50, the two lighting fixtures 1A and 1B can be attached in the side surface direction (x-axis direction).

  Next, the case where the some lighting fixture 1 is connected without utilizing the retrofitting member 50 is demonstrated using FIG. 14A and FIG. 14B. FIG. 14A is a plan view showing a state in which the lighting fixtures 1A and 1B according to the embodiment are connected without using the retrofitting member 50. FIG. FIG. 14B is a plan view illustrating a state in which the lighting fixtures 1 </ b> A and 1 </ b> B according to the embodiment are connected without using the retrofitting member 50.

  As shown in FIG. 14A, the lighting fixture 1 </ b> A is fixed to the construction material 2 (not shown) by the mounting screw 3. Specifically, the luminaire 1A is fixed by inserting the attachment screw 3 into the screw hole 123A provided in each of the two flange portions 122A.

  The lighting fixture 1B is slid so that the flange 122B on the end cover 15B side of the lighting fixture 1B is inserted into the second recess 144A of the end cover 14A of the lighting fixture 1A (the white arrow shown in FIG. 14A). At this time, the flange 122A and the attachment screw 3 fixed to the building material 2 are inserted into the second recess 154B of the end cover 15B of the lighting fixture 1B.

  Thereby, as shown in FIG. 14B, the end cover 14A of the lighting fixture 1A and the end cover 15B of the lighting fixture 1B can be brought into contact with each other. Then, the luminaire 1B can be fixed to the construction material 2 by inserting the attachment screw 3 through the screw hole 123B provided in the flange 122B on the end cover 14B side of the luminaire 1B.

  As mentioned above, when connecting the some lighting fixture 1 without using the retrofitting member 50, the adjacent lighting fixtures 1 can be made to contact. Therefore, since the part (dark part) which does not radiate | emit light can be made small, light nonuniformity can be decreased.

[Effects, etc.]
As described above, the lighting fixture 1 according to the present embodiment supplies power to the fixture main body 10 that can be attached to the construction material 2, the light source unit 20 accommodated in the fixture main unit 10, and the light source unit 20. The power supply part 30 to supply and the screw hole 123 and the screw hole 505 which can insert the attachment screw 3 for attaching the instrument main body part 10 to the construction material 2 are provided, The penetration direction of the screw hole 123 is penetration of the screw hole 505. The direction is different.

  Thus, since the lighting fixture 1 is provided with the two screw holes of the mutually different penetration direction, the lighting fixture 1 can be attached to each direction of two screw holes. That is, the lighting fixture 1 according to the present embodiment has a high degree of freedom of attachment.

  In addition, for example, the lighting fixture 1 further includes a retrofit member 50 that is detachable from the fixture main body 10, and the screw hole 505 is provided in the retrofit member 50.

  Thus, since the luminaire 1 includes the detachable retrofit member 50, the luminaire 1 can be attached in a plurality of directions by attaching the retrofit member to the fixture body 10 as necessary. For example, when the lighting fixture 1 can be attached to the building material 2 without using the retrofit member 50, the lighting fixture 1 can be reduced in weight by removing the retrofit member 50. Moreover, the appearance of the lighting fixture 1 can be improved. On the other hand, for example, as shown in FIG. 12, when it is necessary to change the mounting direction such that the driver 90 does not enter, the lighting fixture 1 is attached to the construction material 2 by attaching the retrofitting member 50 to the fixture body 10. Can be attached.

  Further, for example, the retrofitting member 50 further has a screw hole 503 into which the mounting screw 3 can be inserted, and the luminaire 1 is further inserted into the screw hole 503 and the screw hole 123 to be connected to the appliance main body 10 and the rear. A screw 64 for fixing the attachment member 50 is provided.

  Thus, the screw hole 123 for attaching the instrument main body 10 to the building material 2 can be used as the screw hole for attaching the retrofit member 50. Since the increase in the number of parts of the lighting fixture 1 can be suppressed, the lighting fixture 1 can be reduced in weight while increasing the degree of freedom in mounting the lighting fixture 1.

  Further, for example, the retrofitting member 50 includes a first plate portion 501 provided with a screw hole 503 and a second plate portion 502 provided with a screw hole 505, and the first plate portion 501 and the second plate. The part 502 is substantially orthogonal.

  As described above, since the two mounting directions are substantially orthogonal to each other, for example, in a narrow portion such as a gap between the wall and the ceiling or the floor, the lighting fixture 1 is mounted in a direction that can be easily mounted on either the wall, the ceiling, or the floor. Can do.

  Further, for example, the instrument main body 10 is long, and the screw hole 123 and the screw hole 505 are provided at the end of the instrument main body 10 in the longitudinal direction.

  As described above, since the two screw holes are provided at the end of the instrument main body 10, the lighting fixture 1 can be easily attached to the building material 2. For example, since the screw holes 123 and 505 are exposed to the outside of the lighting fixture 1, it is easy to visually confirm the screw holes 123 and 505 at the time of attachment, and the attachment screw 3 can be inserted and tightened. It becomes easy. In addition, for example, the degree of freedom of arrangement of the power supply unit 30 and the terminal unit 40 inside the instrument main body 10 can be increased as compared with the case where two screw holes are provided inside the instrument main body 10.

  For example, the penetration direction of the screw hole 123 and the penetration direction of the screw hole 505 are orthogonal to each other and orthogonal to the longitudinal direction of the lighting fixture 1.

  Thus, since the two attachment directions are substantially orthogonal, for example, in a narrow part such as a gap between the wall and the ceiling or the floor, the lighting fixture 1 is easily attached to both the wall and the ceiling or the floor. Can be attached.

  Further, for example, the instrument main body 10 includes an opening 113 and a main body 11 having a groove 114 provided along an edge of the opening 113, and a mounting plate 12 slidably inserted into the groove 114 so as to close the opening 113. The screw hole 123 is provided in the mounting plate 12.

  Thereby, since the attachment plate 12 is slid and inserted, compared with the case where the attachment plate 12 is being fixed with the screw, the thickness of the attachment plate 12 can be made thin. Therefore, the lighting fixture 1 can be reduced in weight.

  Further, for example, the mounting plate 12 has a flange 122 protruding outward from the main body 11, and the screw hole 123 is provided in the flange 122.

  Thus, since the screw hole 123 is provided in the collar part 122 which protruded outward from the main body 11, the lighting fixture 1 can be attached to the construction material 2 easily. That is, since the screw hole 123 is exposed to the outside of the lighting fixture 1, it is easy to visually confirm the screw hole 123 at the time of attachment, and insertion of the attachment screw 3 and screw tightening are facilitated.

(Modification)
Below, the modification of the lighting fixture which concerns on this Embodiment is demonstrated using drawing.

  In said embodiment, although the lighting fixture 1 showed about the example provided with the retrofit member 50, it is not restricted to this. Specifically, the screw hole for attaching the lighting fixture 1 may be provided in the fixture main body 10 instead of the retrofitting member 50.

  FIG. 15 is a schematic perspective view of an end portion of a lighting fixture 600 according to this modification. As illustrated in FIG. 15, the lighting fixture 600 according to the present modification includes a flange 622 instead of the retrofitting member 50 provided with the second screw holes (screw holes 505 and 506). The following description will focus on differences from the embodiment.

  The collar portion 622 is fixed to the instrument main body portion 10. For example, the flange 622 is a part of the main body 11 or the mounting plate 12. The collar part 622 is provided in a different direction from the collar part 122. Specifically, the collar part 622 is provided so as to be substantially orthogonal to the collar part 122.

  The flange portion 622 is provided with a screw hole 623 that is an example of a second screw hole. The penetration direction of the screw hole 623 is different from the penetration direction of the screw hole 123 of the flange 122. Specifically, as shown in FIG. 15, the penetration direction of the screw hole 623 is the x-axis direction, and the penetration direction of the screw hole 123 is the z-axis direction.

  Thereby, similarly to the lighting fixture 1 which concerns on embodiment, the lighting fixture 600 can be attached to an x-axis direction or a z-axis direction. That is, in the lighting fixture 600 according to the present modification, the mounting direction is not limited to one direction, and the degree of freedom of mounting is increased.

(Other)
As mentioned above, although the lighting fixture which concerns on this invention was demonstrated based on the said embodiment and its modification, this invention is not limited to said embodiment.

  For example, in the above embodiment, the example in which the penetration direction of the first screw hole (screw hole 123) and the penetration direction of the second screw hole (screw holes 505 and 506) are orthogonal to each other is shown. Not exclusively. The penetration direction of the first screw hole may be different from the penetration direction of the second screw hole. For example, the first plate portion 501 and the second plate portion 502 of the retrofit member 50 may be connected obliquely at a predetermined inclination angle. Thereby, the penetration direction of the 1st screw hole and the penetration direction of the 2nd screw hole can be made to cross diagonally.

  Further, for example, in the above embodiment, the example in which the flange portion 122 and the screw hole 123 (first screw hole) are provided at both ends of the mounting plate 12 has been described, but the present invention is not limited thereto. The flange 122 and the screw hole 123 may be provided only at one end of the mounting plate 12. Further, the flange 122 and the screw hole 123 may be provided not on the mounting plate 12 but on the main body 11 or the end cover 14 or 15.

  Further, for example, in the above-described embodiment, the first screw hole (screw hole 123) and the second screw hole (screw holes 505 and 506) protrude outward from the end portion of the instrument main body 10 (the collar portion). Although the example provided in 122 and the retrofitting member 50) was shown, it is not restricted to this. For example, at least one of the first screw hole and the second screw hole may not be exposed to the outside of the instrument main body 10. A lid that can be freely opened and closed is provided on a part of the instrument body 10, and the first screw hole or the second screw hole may be provided at a position where the driver can be inserted when the lid is opened. Alternatively, instead of the lid that can be freely opened and closed, an insertion hole into which a driver can be inserted may be provided.

  Further, for example, in the above embodiment, the first screw hole (screw hole 123), the second screw hole (screw holes 505 and 506), and the third screw hole (screw holes 503 and 504) are through holes. Although an example has been shown, the present invention is not limited to this. These screw holes may have a shape in which a part of the side surface is notched. For example, the screw hole 123 may have a shape that is notched inward from the end face of the flange 122.

  For example, in the above-described embodiment, the example in which the retrofitting member 50 is fixed to the flange portion 122 with the screw 64 has been described, but the present invention is not limited thereto. The retrofitting member 50 may be locked to the flange portion 122. The retrofitting member 50 may be locked to the flange portion 122 by snap-in or the like.

  Further, for example, in the above-described embodiment, the end covers 14 and 15 are detachably provided at both ends of the instrument main body 10 in the longitudinal direction. However, the present invention is not limited to this. For example, one end of the instrument body 10 in the longitudinal direction may be closed by a part of the body 11. That is, in the above embodiment, the mounting plate 12 can be slid and inserted from both ends of the main body 11, but the mounting plate 12 can be slid and inserted only from one of the end portions of the main body 11. Good.

  Further, the mounting plate 12 may not be inserted by sliding, but may be supported by the main body 11 by fixing by screwing or caulking, or by locking such as snap-in.

  Moreover, for example, in the above-described embodiment, the example in which the light source unit 20 includes the LED element has been described. The light source unit 20 may include an organic EL (Electro-Luminescence) element, a solid light emitting element such as a laser element, or a discharge lamp such as a fluorescent lamp.

  Further, for example, in the above-described embodiment, the example in which the lighting fixture 1 (the fixture main body portion 10) is long is shown, but the present invention is not limited thereto. The lighting fixture 1 may be a ceiling light, a stand-type light, a downlight, a spotlight, a light bulb type lamp, or the like.

  In addition, the embodiment can be realized by arbitrarily combining the components and functions in each embodiment without departing from the scope of the present invention, or a form obtained by subjecting each embodiment to various modifications conceived by those skilled in the art. Forms are also included in the present invention.

DESCRIPTION OF SYMBOLS 1, 1A, 1B, 600 Lighting fixture 2 Construction material 3 Attachment screw 10 Appliance main body part 11 Main body 12 Attachment plate 20 Light source part 30 Power supply part 50 Retrofit member 113 Opening 114 Grooves 122, 122A, 122B, 622 Ridge parts 123, 123A , 123B Screw hole (first screw hole)
501 First plate portion 502 Second plate portions 503 and 504 Screw holes (third screw holes)
505, 506, 623 Screw hole (second screw hole)

Claims (8)

An instrument body that can be attached to the construction material;
A light source unit housed in the instrument body unit, and a power supply unit for supplying power to the light source unit;
A first screw hole and a second screw hole through which an attachment screw for attaching the instrument body to the construction material can be inserted;
The penetrating direction of the first screw hole is different from the penetrating direction of the second screw hole. further,
A detachable retrofit member is provided on the instrument body,
The lighting fixture according to claim 1, wherein the second screw hole is provided in the retrofit member. The retrofit member further has a third screw hole into which the mounting screw can be inserted,
The lighting apparatus further includes:
The lighting fixture according to claim 2, further comprising a screw that is inserted through the third screw hole and the first screw hole to fix the fixture main body and the retrofitting member. The retrofit member is
A first plate portion provided with the third screw hole;
A second plate portion provided with the second screw hole,
The lighting fixture according to claim 3, wherein the first plate portion and the second plate portion are substantially orthogonal to each other. The instrument body is long,
The lighting fixture according to any one of claims 1 to 4, wherein the first screw hole and the second screw hole are provided at an end in a longitudinal direction of the fixture main body. The lighting fixture according to claim 5, wherein a penetration direction of the first screw hole and a penetration direction of the second screw hole are orthogonal to each other and orthogonal to the longitudinal direction. The instrument body is
A body having an opening and a groove provided along an edge of the opening;
A mounting plate slidably inserted into the groove to close the opening;
The lighting apparatus according to claim 1, wherein the first screw hole is provided in the mounting plate. The mounting plate has a flange protruding outward from the main body,
The lighting fixture according to claim 7, wherein the first screw hole is provided in the collar portion.

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